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Does a copy still take place here:

std::vector<int> &f = foo();

where foo's prototype is

std::vector<int> foo();
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2 Answers 2

up vote 8 down vote accepted

foo() returns a temporary object which cannot be bound to non-const reference.

Do one of these:

//temporary can be bound to const-reference, so this is ok
const std::vector<int> &f = foo();  //no copy takes place.

//or save a copy of temporary
std::vector<int> f = foo(); //copy takes place (may be optimized by compiler)

Read the comments above. In the second version (non-reference version), the compiler may optimize the return value, avoiding the copying of temporary. It depends on the implementation of foo() as well.

See this:

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for those examples, does a copy still take place? –  pingu Nov 23 '11 at 15:11
@pingu: Read the comments. –  Nawaz Nov 23 '11 at 15:12
@pingu - the compiler is very likely but not guaranteed to optimize away the copy in the second version - see en.wikipedia.org/wiki/Return_value_optimization). –  Joris Timmermans Nov 23 '11 at 15:16
Modern (C++11) compilers will move the vector in the second example. (Essentially a shallow copy) saving you 99% of the cost of the deep copy. –  Mooing Duck Nov 23 '11 at 15:32

You're code isn't legal. It should be either:

std::vector<int> const& f = foo();


std::vector<int> f = foo();

The standard allows a copy in both cases (at least C++03 did—I think C++11 tighted things up in the first case); it requires it in neither, and I don't know of a compiler which actually does a copy in either case. If you're really worried about the copy, though, changing the declaration of foo to:

void foo( std::vector<int>& results );

and using:

std::vector<int> f;
foo( f );

guarantees that there will be no copies, anywhere. It's not as pretty, but if profiling shows that copying is a bottleneck here, it should be considered.

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Thanks James, would i be right in saying the only other option to avoid a copy would be to use a smart pointer? –  pingu Nov 23 '11 at 15:37
C++03 compiers may not be able to use RVO depending on the internals of the function. I've heard many compilers stumble with things like codepad.org/n88KlNFc –  Mooing Duck Nov 23 '11 at 15:43
@pingu: you could also pass a vector by reference to the function to put the return value into. –  Mooing Duck Nov 23 '11 at 15:44
@pingu A smart pointer could be used, but that introduces more complexity than is needed. And an additional dynamic allocation: the containers in the standard library are designed so that we (the users) don't have to use dynamic allocation. –  James Kanze Nov 23 '11 at 15:53
@MooingDuck RVO isn't the issue here. Whether RVO is used will depend on the contents of the function. The issue here is whether the compiler merges the temporary used to hold the return value with the local variable at the call site. (RVO is whether the compiler merges objects---named or not---in the function with the temporary used to hold the return value.) –  James Kanze Nov 23 '11 at 15:56

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